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Rosetta obtains 'light curve' of asteroid Steins (Forwarded)



 
 
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Old March 20th 07, 10:43 PM posted to sci.space.news
Andrew Yee[_1_]
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Default Rosetta obtains 'light curve' of asteroid Steins (Forwarded)

ESA News
http://www.esa.int

20 March 2007

OSIRIS camera on Rosetta obtains 'light curve' of asteroid Steins

During the very first observations of Rosetta's flyby target 2867-Steins in
March 2006 the onboard camera OSIRIS obtained the most accurate 'light
curve' of this asteroid so far.

OSIRIS observed Steins from a distance of 159 million kilometres and, from
there, it obtained images and important clues about its characteristics.

Although ESA's Rosetta is still far away from its destination comet
67P/Churyumov-Gerasimenko and its flyby targets 2867-Steins and 21-Lutetia,
scientists have already started to collect preliminary data about these two
largely unexplored asteroids. Advanced knowledge of the asteroids'
properties (like size and rotation period) is essential for the preparation
of the planned asteroid observation campaigns in September 2008 and July
2010, respectively.

"Lutetia was imaged by Rosetta on 2 and 3 January 2007, whereas Steins was
already observed during a 24-hour observation campaign on 11 March 2006.
Both observations were aimed at pre-characterizing the rotation direction of
the asteroid. This can be done by the study of the so-called 'light curve'
of the asteroid from different locations -- by analysing how the light
emitted by the observed object changes intensity for different observers,
one can deduce in what direction the object rotates," explains Michael Kpers
from the Max-Planck-Institute for Solar System Research. The Optical,
Spectroscopic, and Infrared Remote Imaging System (OSIRIS) on board Rosetta
is up to this ambitious task. On its interplanetary cruise it provided an
observing geometry of Steins that cannot be obtained from Earth.

Although the brightness of the Steins asteroid during the measurement period
was comparable to that of a candle seen at a distance of ~2000 kilometres,
OSIRIS was able to measure brightness variations of the asteroid with an
accuracy of better than two percent of its total brightness.

The observations show that Steins rotates with a spin period of slightly
more than six hours, in agreement with previous earth-based observations.
The asymmetry of the light curve suggests an irregular shape of Steins.
However, OSIRIS found no evidence for a 'tumbling' motion of the asteroid or
the presence of a satellite. Work is ongoing to construct the orientation of
the spin axis of Steins from a combination of the OSIRIS observations with
ground-based data.

Basically, asteroids are elemental components of the solar system, orbiting
the sun for thousand of millions of years. For scientists, these minor
bodies of rock or stone are much more than only boulders. Asteroids as well
as comets carry important information about the origin of the Solar System
-- a better understanding of which is one of the primary goals of Rosetta.
Rosetta will gather valuable data as it flies by these primordial rocks.

Rosetta's instruments will provide information on the mass and density of
the asteroids, thus telling us more about their composition, and will also
measure their subsurface temperature and look for gas and dust around them.

Note for editors:

Asteroid 2867-Steins will be visited again by Rosetta on 5 September 2008
from a distance of just over 1700 kilometres. This encounter will take place
at a relatively low speed of about 9 kilometres per second during Rosetta's
first excursion into the asteroid belt. On 10 July 2010 Rosetta will pay its
second visit to asteroid 21-Lutetia, passing within about 3000 kilometres of
it, at a speed of about 15 kilometres per second.

This article is based on the paper "Determination of the light curve of the
Rosetta target asteroid (2867) Steins by the OSIRIS cameras onboard Rosetta,
by M. Kpers et al published in: Astronomy & Astrophysics, Vol. 462-1
(January IV 2007, A&A 462, p. L13).

For more information:

Michael Kpers, Max-Planck-Institut f Sonnensystemforschung
Email:

Uwe Keller, OSIRIS Principal Investigator, Max-Planck-Institut f
Sonnensystemforschung
Email: KELLER @ linmpi.mpg.de

Rita Schulz, ESA Rosetta Project Scientist
Email: rita.schulz @ esa.int

Gerhard Schwehm, ESA Rosetta Mission Manager
Email: gerhard.schwehm @ esa.int

[NOTE: Images and weblinks supporting this release are available at
http://www.esa.int/esaCP/SEMCC2R08ZE_index_1.html ]
 




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